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Summary AQA A Level Psychology - A* MEMORY ESSAY PLANS

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Specification-tailored essay plans for the ENTIRE Memory topic in AQA A Level and/or AS psychology How? - Past paper analysis, directly including phrases from mark schemes INCLUDES: - Essay plans (Ao1 + Ao3) for all of the memory specification points - Colour coding of researchers / key stats / marking vocabulary to aid recall / blurting / flashcards

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1 - Coding, capacity and duration of memory Be mindful of the question DEMAND (Aims / Procedure
/ Findings/ Conclusions)

AO1 AO3

Short term and long term memory (STM vs LTM) Baddeley’s study identified 2 memory stores / high control
STM: -​ Controlled procedures to isolate the mechanism of coding in
-​ Limited capacity / acoustic coding / capacity of 7±2 items, the STM, manipulation of word lists with specific acoustic
duration of 18-20 seconds / properties
LTM: -​ Controlled for semantic meaning to accurately pinpoint the
-​ Permanent memory store / semantic coding / unlimited errors made
capacity / lifetime duration -​ E: Later research showed no exceptions to Baddeley’s
findings (STM is mostly acoustic and LTM is mostly semantic)
Coding -​ L: Led to the development of the MS model (HIGH INT V)
-​ How we take in information & the format it is stored in the
various memory stores. Baddeley’s study used artificial stimuli
Acoustic and semantic memory (Coding)→ Baddeley (1966) -​ Words to recall had no semantic meaning, telling us little about
-​ 4 groups, each given a list to remember. the reality of coding capacity for everyday memory tasks
-​ Acoustically similar (cat,cap,can) or dissimilar (lorry, cow, pit). -​ E: When processing is more meaningful, people will
-​ Semantically similar (great, big, large) or dissimilar (tiny, car, predominantly use semantic coding even for STM
window) -​ L: The findings have limited application (LOW EXT V)
FINDINGS:
-​ Immediate recall was worse with acoustically similar words. Jacobs’ study has high replicability & reliability
-​ Recall after 20 mins was worse with semantically similar -​ Older study from the 1880s, may have lacked adequate
words. controls (cv’s → distractions, environment)
-​ STM processes information (encodes) acoustically. -​ E: Repeatedly tested across different cultures & populations
-​ LTM processes semantically. overtime (straightforward nature of the digit span technique)
-​ Confirmed in later studies (Boop & Verhaegan 2005)
Capacity -​ L: His study is a valid measure of STM digit span, replicable (a
-​ Amount of information that can be held in the memory store. key feature of science) & has proven to be highly reliable.
Testing digit span (STM capacity)→ Jacobs (1887)
-​ Read 4 digits / increase span till the ppt can’t recall the order Miller’s research may overestimate STM capacity
correctly. Final no. = digit span -​ Cowan (2001) reviewed other research
FINDINGS -​ Concluded STM capacity was only about 4 chunks (not 7 ± 2)
-​ On average, ppts could repeat back 9.3 numbers / 7.3 letters -​ E: Capacity can also be influenced by age and practice.
-​ STM has a finite capacity -​ L: The lower end of Miller’s estimate (5 items) may have been
more appropriate, reducing the reliability of Miller’s magic
Magic number 7 ±2 (STM capacity)→ Miller (1956) number 7 hypothesis.
-​ Observed everyday practice, noticing things come in 7’s
-​ EG: notes of a musical scale / days of the week / deadly sins Peterson & Peterson’s study used meaningless stimuli
FINDINGS -​ Questioning the relevance of the study. Sometimes we have to
-​ STM capacity is 7 ±2, increased by chunking recall meaningless stimuli but recalling as a trigram of
-​ Chunking: Grouping small, discrete pieces of info / into consonant syllables is not common
larger / meaningful units = increases capacity -​ E: It fails to meaningfully reflect everyday memory tasks (eg;
random facts / times tables / shopping lists)
Duration -​ L: The study lacks external validity, generalisability & has low
-​ How long information can be held in memory mundane realism (eco v) - fail to apply to real-life situations.
Consonant syllables (STM duration) → Peterson & Peterson (1959)
-​ 24 students given a trigram (eg - YCG) to recall & a 3 digit Bahrick et al’s study had high external validity
number to count backwards from. -​ Everyday meaningful memories (people’s names & faces)
-​ Retention interval was varied ( / / secs) were studied - they were from their graduating class
-​ Distractor task prevents rehearsal -​ E: Shepard (1967) - conducted a lab study, finding that found
FINDINGS recall rates were LOWER with MEANINGLESS images of
-​ Average recall (after 3s = 80% / 18s = 3%) people they didn’t recognise
-​ C: STM duration without rehearsal is up to 18 secs. -​ L: Reflect a more ‘real’ estimate of the duration of LTM, higher
population validity & the findings are more generalisable to
Yearbook photos (LTM duration) → Bahrick et al (1975) everyday experiences.
-​ 392 American ppts aged between 17 - 74
-​ Recall tested in 2 ways…
-​ Recognition test - 50 photos from high school yearbooks
-​ Free recall test - Ppts listed names of THEIR graduating class
FINDINGS
-​ Recognition test: 90% accuracy after 15yrs / 70% = 48yrs
-​ Free recall test: 60% recall after 15yrs / 30% = 48yrs
-​ C: LTM duration can last a lifetime

, 2 - The multi-store model of memory (MSM) Outline model structure + key processes
AO1 AO3

The Multi-Store Model of Memory Research support showing STM & LTM are different
-​ Atkinson & Shiffrin (1968) -​ Baddeley (1966) found we tend to mix up acoustically similar
-​ Describes how information flows through a memory system words when using our STMs - proving coding is acoustic.
-​ Memory = 3 stores, linked by processing. -​ E: We mix up semantically similar words when using our LTMs
- coding is semantic
1 - STORE: Sensory register (SR) -​ L: Supports the MSMs view that these 2 memory stores are
-​ All stimuli from the environment separate and independent.
-​ Raw sensory impressions
-​ 5 stores (one for each sense) Research support from any of the spread above
-​ Coding = modality-specific (iconic / echoic / etc) -​ Bahrick et al (1975) or Jacobs (1859)
-​ Duration = very brief, a fraction of a second
-​ Capacity = very high Real w practical application in education and memory
2 - Attention -​ MSM has influenced revision / memory strategies, studies can
-​ SR → STM transfer use maintenance rehearsal or elaborative rehearsal to
-​ If we pay attention to information, it transfers from the SR → strengthen LTM storage.
STM -​ E: Techniques like spaced repetition or active recall, keeping
3 - STORE: Short-term memory (STM) info active & rehearsed to be encoded into LTM
-​ Coding = acoustic -​ L: MSM is valuable both theoretically and practically, useful in
-​ Duration = 18-30s unless information is rehearsed schools and clinical settings - greater credibility.
-​ Capacity = 7±2 chunks before some forgetting occurs -​ (Belleville et al 2006 - intervention)
4 - Maintenance rehearsal
-​ Rehearsal of material, we can keep information in STM as Evidence suggesting there is more than 1 STM store
long as we rehearse it -​ Shallice & Warrington (1970) did a case study on KF
-​ Extensive rehearsal → LTM -​ KF = amnesia after a motorcycle accident
5 - STORE: Long-term memory (LTM) -​ E: STM recall for digits = severely impaired (verbal/auditory
-​ A permanent memory store info)
-​ Coding = mostly semantic -​ STM = largely unaffected for visual information when he read
-​ Duration = potentially up to a lifetime the digits.
-​ Capacity = theoretically unlimited -​ Other studies also confirm there may be separate STM stores
6 - Retrieval from LTM for non-verbal sounds (noises / visual information )
-​ To recall information in the LTM, it has to be retrieved -​ L: STM is not a unitary store, it is overly simplistic to claim that
(transferred back into the STM) there is just 1 store processing different types of information.
Decay STM may not exclusively code acoustically…WMM
-​ Information lost via displacement (new info enters) or decay
(lost over time) Prolonged rehearsal is not needed for STM-LTM transfer
-​ Memories can be forgotten (decay) if they are not recalled -​ Craik & Watkins (1973) argued there are 2 types of rehearsal.
after a long period of time -​ Maintenance: amount of rehearsal (MSM)
-​ The forgetting curve -​ E: ALSO elaborative rehearsal: linking information to your
existing knowledge or think about its semantic meaning,
building on your schema
-​ C & W argue this is needed for long-term storage.
-​ L: The MSM doesn’t fully explain how LT storage is achieved,
& elaborative rehearsal may be more effective.

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Subido en
23 de junio de 2026
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Escrito en
2025/2026
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